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Maryland Transportation Authority Police Training Facility

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Presentation on theme: "Maryland Transportation Authority Police Training Facility"— Presentation transcript:

1 Maryland Transportation Authority Police Training Facility
Leah C. Clark Lighting/Electrical Option Senior Thesis 2008

2 Overview Location: Hawkins Point, Baltimore, Maryland Size:
• 42,100 square feet • 2 stories above grade Project Team: • Owner: Maryland Transportation Authority • Mechanical and Electrical: Johnson, Mirmiran, & Thompson • Architectural: Rubeling & Associates • Civil and Structural: Carroll Engineering, Inc. Cost: $15.2 Million

3 Floor Plan Front Façade Physical Training Gym Classroom
Firing Range Area

4 Classroom Lighting

5 Classroom Design Criteria Light Distribution of Task Plane
Light Distribution of Task Plane Uniformity on task plane Peripheral Emphasis Control and Flexibility Examination Scene Audio/Visual Presentation Scene Lecturing Scene Illuminance Levels (to perform task)

6 Classroom Examination Scene Linear semi-indirect – 100%
Cabinet lighting – 100% C) Square downlights – 100%

7 Classroom Audio/Visual Presentation Scene Linear semi-indirect – 50%
Cabinet lighting – 0% Square downlights – 0%

8 Classroom Lecturing Scene Linear semi-indirect – 25%
Cabinet lighting – 0% Square downlights – 100%

9 Firing Range Lighting

10 Firing Range Design Criteria Control and Flexibility
Control and Flexibility Pseudo-realistic training environments 1) Night-time Condition 2) Typical Interior Condition 3) Glare Condition Light Distribution on Task Plane Distribution will vary based on the real-life situation being simulated Illuminance Levels Night-time Condition – less than 5 fc Typical Interior Condition – avg 30 fc Glare Condition – avg 30 fc + glare

11 Firing Range Night-time Condition

12 Firing Range Typical Interior Condition

13 Firing Range Glare Condition

14 Range Ventilation

15 Range Ventilation Range Ventilation Guidelines
Optimum ventilation rate is 75 fpm at the firing line with a minimum of 50 fpm should be maintained at the firing line. Air should be distributed at least 15 feet behind the shooter with the supply air inlets place on the back wall. High Efficiency Particulate (HEPA) filters should be used to filter all air being exhausted from the firing range. The range should have a dedicated ventilation system so as not to contaminate other spaces in the building. Supply and return air systems should be electrically interlocked so that one can not be in use without the other. High efficiency heating and cooling coils lower the interference with air flow balance.

16 Range Ventilation Existing System

17 Range Ventilation Proposed Solution

18 Q = vA = (75 ft/min)*(100ft)*(11ft) = 82,500 ft3/min
Range Ventilation Sizing of the Proposed System Q = vA = (75 ft/min)*(100ft)*(11ft) = 82,500 ft3/min AHUs supplying 42,000 cfm Affinity laws were applied to determine the motor size to power the AHUs 125 hp motor

19 Electrical Resizing for Mechanical

20 Electrical Resizing for Mechanical
Resizing for Mechanical Breadth MCA = FLC * 125% = 156A * 1.25 = 195A Branch Circuits (4) 3/0 AWG and (1) #3 AWG ground in 2” conduit MOPD = 156A * 250% = 156A * 2.50 = 390A (max) Circuits 7 and 8 serving AHU-1 and AHU-2 350A 3-pole circuit breakers Panelboard MDP 5 sets of (4) 400 MCM and (1) 4/0 AWG ground in 3” conduit

21 Acoustical Considerations

22 Acoustical Considerations
Classroom Firing Range

23 Acoustical Considerations
Noise Criterion (NC) for classrooms greater than 750 ft2 Less than NC-35 Basic Method used to calculate Noise Reduction (NR) NR = TL + 10 log (Arec/Scommon wall) Source Sound Pressure Levels for Firearms

24 Acoustical Considerations
A more conventional noise reducing wall assembly consisting of painted hollow (8") CMU and 5/8” gypsum board on resilient channels with 1-1/2” fiberglass furring. Acoustical Considerations Conventional Wall Assembly

25 Acoustical Considerations
Conventional Wall Assembly NR = TL + 10 log (Arec/Scommon wall)

26 Acoustical Considerations
Conventional Wall Assembly

27 Acoustical Considerations
Proposed Wall Assembly

28 NR = TL + 10 log (Arec/Scommon wall)
Acoustical Considerations Conventional Wall Assembly NR = TL + 10 log (Arec/Scommon wall)

29 Acoustical Considerations
Conventional Wall Assembly

30 Conclusions Firing Range Classroom

31 Acoustical Considerations
Conclusions Range Ventilation Acoustical Considerations

32 Acknowledgements Thanks! Maryland Transportation Authority
Johnson, Mirmiran, & Thompson Matt Keller Jim Good Dr. Mistrick Ted Dannerth AE Faculty and Staff AE Classmates Family & Friends

33 Leah C. Clark Lighting/Electrical Option Senior Thesis 2008
Questions? Leah C. Clark Lighting/Electrical Option Senior Thesis 2008

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